Products and processes for operations management of casino, leisure and hospitality industry

ABSTRACT

In various embodiments of this invention, a suite of customized computer software applications, a linked or wireless computer network and accessory components cooperate to enhance and extend customer and employee resource management in the casino/gaming environment.

CLAIM TO PRIORITY AND CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation of co-pending U.S. application Ser.No. 13/004,405, which is a continuation of U.S. application Ser. No.12/043,829 (issued as U.S. Pat. No. 7,878,909), which is a division ofU.S. application Ser. No. 10/452,231 (issued as U.S. Pat. No.7,431,650), filed May 30, 2003, entitled “Casino Poker and DealerManagement System,” which claims priority to U.S. Provisional PatentApplication No. 60/384,565, filed on May 30, 2002, entitled “Productsand processes for operations management of casino, leisure andhospitality industry” and U.S. Provisional Patent Application No.60/429,383, filed on Nov. 25, 2002, entitled “Products and processes foroperations management of casino, leisure and hospitality industry.” Allof which are incorporated herein by reference.

COMPUTER PROGRAM LISTING APPENDIX

The source code files listed below are in this application incorporatedby reference, and are stored on two compact discs (one original compactdisc and one duplicate) filed herewith.

Creation Date and Time SIZE FILENAME 04/15/2002 02:51p 2,343ActionButton.java 11/04/2002 06:18p 7,535ActiveCreditRequestSummaryJPanel.java 11/04/2002 06:18p 7,451ActiveFillRequestSummaryJPanel.java 02/11/2002 09:22p 11,697administration.java 02/05/2003 02:09a 26,213 AS400RobotManager.java04/03/2003 09:28p 1,916 AverageWaitButton.java 04/22/2003 12:38p 20,717AverageWaitTimeEntryListCalculator- Thread.java 02/20/2002 01:25p 671BarCode.java 11/04/2002 06:19p 10,406 buildDB.java 11/04/2002 06:19p2,110 buildPlayerCardSQL.java 11/04/2002 06:19p 4,295buildPlayerSQL.java 11/04/2002 06:18p 2,200 CalculatorButton.java12/16/2002 01:29p 10,542 CalculatorThread.java 04/22/2002 11:02p 2,743CardNumberFocusThreadjava 04/29/2002 12:25p 4,411 CardReader.java12/16/2002 01:24p 39,864 CasinoManagerConsole.java 12/16/2002 01:27p3,432 CasinoManagerCreditTablesJPanel.java 05/15/2002 06:36p 2,323CasinoManagerTableButton.java 12/16/2002 01:44p 3,412CasinoManagerTablesJPanel.java 11/04/2002 06:19p 3,860CheckInConfirmationJPanel.java 11/04/2002 06:19p 3,647CheckInJPanel.java 02/05/2003 02:02a 11,141 CheckInPanel.java 11/04/200206:19p 2,369 CheckInPlayerButton.java 11/04/2002 06:19p 171client.properties 02/05/2003 12:34a 30,743 ClientConnectionjava11/04/2002 06:19p 7,313 clientListener.java 03/12/2002 04:12a 964ClockLabel java 02/21/2002 09:46p 4,909 Code39.java 01/28/2003 06:24p2,317 ColumnHeaderButton.java 11/04/2002 06:18p 2,313CreditCurrencyJButton.java 05/22/2002 04:09p 24,589CreditDenominationJPanel.java 12/17/2002 06:17p 6,544 CreditJPanel.java09/24/2002 08:43p 7,483 CreditRequestSummaryJPaneljava 04/30/2002 11:01p17,071 CurrentBetJPanel.java 05/27/2003 01:22p 1,098 database.properties11/04/2002 06:19p 12,780 DatabaseSystem.java 04/30/2002 10:05p 1,722DateTime java 11/04/2002 06:19p 2,058 DigitalClock java 04/15/200202:51p 2,466 EntryButton java 11/04/2002 06:18p 2,309FillCurrencyJButtonjava 05/21/2002 12:37p 24,451FillDenominationJPanel.java 12/17/2002 06:19p 6,416 FiIIJPanel.java09/24/2002 08:43p 7,401 FillRequestSummaryJPanel.java 12/12/2002 01:33a9,133 FooterThread.java 12/12/2002 05:25p 20,245 GameConsole.java04/15/2002 02:51p 2,831 GameLegendButton.java 12/16/2002 01:15p 13,274GameManagerCommandCenter.java 12/17/2002 06:21p 3,083 GamesJPanel.java04/15/2002 02:51p 1,888 GameTypeComboBox.java 12/06/2001 12:01a 1,256getWebFile.java 05/29/2002 11:45a 1,915 GradientCardSwipeJPanel.java04/21/2002 03:06p 1,897 GradientJPanel Java 05/29/2002 04:50p 3,467GradientLoginInfoJPanel.java 12/01/2001 06:32p 1,334 hello Java04/10/2003 02:42p 7,868 HTTPRequest Java 04/10/2003 02:19p 3,997HTTPRequestPOST Java 04/10/2003 02:19p 162 httpserver.properties04/10/2003 02:19p 7,264 HTTPServerPropertyLoader.java 11/04/2002 06:18p2,348 IncrementDecrementJButton.Java 12/03/2001 02:55a 456InitializeSystem.java 07/23/2002 05:00p 2,877 InteractiveCalendar.java01/31/2003 10:37p 25,168 Ipaq.java 04/22/2003 12:14a 3,517JarClassLoader.java 04/22/2003 12:15a 4,930 JarRunner Java 04/15/200202:51p 2,305 KeyboardKeyButton Java 03/12/2002 04:03a 5,845 KeyDetectionJava 04/22/2003 11:52a 15,121 LegacyInterface.java 04/15/2003 03:07a35,056 LegacyRobot.java 11/04/2002 06:19p 1,852 LegendButton.java04/07/2003 02:15p 17,231 LegendThread.java 04/07/2003 02:19p 23,063List.java 11/04/2002 06:18p 2,687 ListDownArrowJButtonjava 11/04/200206:18p 2,298 ListGameButton.java 05/08/2002 09:06p 2,361ListGameScrollButton Java 11/04/2002 06:19p 6,607listManager.java05/23/2002 05:50p 21,191 ListManagerRobot.java 01/27/2003 11:04a 17,786ListPanel.java 04/15/2002 02:51p 776 ListPorts.java 11/04/2002 06:19p2,685 ListUpArrowJButton.java 11/04/2002 06:18p 2,354LoginInfoButton.java 12/03/2002 06:58p 17,401 LogonScreen Java11/04/2002 06:19p 1,846 LongButton.java 04/22/2003 03:26p 2,216MailExample.java 04/15/2002 02:51p 2,345 ManagerButton.java 03/12/200304:32p 20,603 ManagerConsole Java 12/16/2002 01:01p 6,738MarqueeThread.java 11/04/2002 06:19p 2,336 MathematicalJButton.java04/15/2002 02:51p 1,978 MenuButton.java 12/16/2002 12:52p 2,750MonitorCloseTable Java 01/27/2003 10:59a 24,247 MonitorEntryList.java12/16/2002 01:10p 2,517 MonitorOpenSeatjava 12/16/2002 12:54p 4,611MonitorOpenTable.java 12/16/2002 01:17p 2,516 MonitorPhoneInList.java12/16/2002 01:05p 4,000 MonitorPublicSeating.java 12/16/2002 01:19p8,435 MultiAddJPanel.java 01/28/2003 11:43p 10,343MultiGamePlayerView.java 12/12/2002 01:26a 10,378MultiGamePlayerViewJPanel.java 12/03/2002 01:20a 12,381NetworkManagerConsole.java 04/15/2002 02:51p 1,976 NextButton.java12/03/2001 01:54a 4,519 nodes.java 09/24/2002 08:43p 13,565NotificationManagerConsolejava 03/24/2002 04:23p 55,593 oldClient.java12/16/2002 12:49p 7,028 OpenGamePanel.java 12/16/2002 01:47p 25,208OpenSeatAnnounce java 04/22/2003 11:47a 4,963OpenSeatMaintenanceThread.java 01/08/2003 01:37p 70,751 PCkeyBoard.java03/17/2002 02:33a 2,064 pda.java 03/19/2002 05:15p 613PDAscreenSize.java 01/28/2003 11:46p 9,185 PlayerBasicSearch. java02/20/2002 05:45p 7,825 PlayerCard.java 11/04/2002 06:19p 11,284PlayerCashPaneljava 11/04/2002 06:19p 11,415 PlayerChipPaneljava11/04/2002 06:19p 2,304 PlayerGameButton.java 02/05/2003 02:04a 9,165PlayerGamePanel.java 01/28/2003 05:00p 10,369 PlayerHistoryViewjava12/17/2002 06:23p 28,306 PlayerManagerConsole.java 02/05/2003 02:06a5,682 PlayerPanel java 11/04/2002 06:19p 2,307 PlayerSeatButton.java11/04/2002 06:19p 4,254 PlayerSummaryPanel.java 05/29/2002 06:01p 2,309PlayerTableButton.java 09/11/2002 12:12a 5,884PlayerVerificationTicketLayout.java 04/15/2002 02:51p 2,576PokerTableButton.java 02/04/2002 09:42p 3,109 Print2DGraphics.java09/24/2002 08:43p 15,847 PrintCreditRequestReceipt.java 02/26/200212:44p 5,367 PrinterTest java 09/24/2002 08:43p 15,922PrintFillRequestReceipt.java 02/04/2003 12:15p 3,281 PrintJob java09/13/2002 06:24p 6,170 PrintPlayerVerificationTicket.java 05/17/200202:36p 18,734 PrintTournamentTicket.java 01/14/2002 06:09p 4,511progress java 12/16/2002 01:19p 6,904 PropertyLoaderThread.java01/02/2002 06:44p 3,491 PropertyReader.java 12/16/2002 01:47p 11,541PublicSeatingAnnouncejava 04/22/2003 11:47a 4,976PublicSeatingMaintenanceThread.java 04/10/2003 02:19p 5,184QueryParametersjava 08/02/2002 01:45p 11,073 RatingChipPanel.java11/04/2002 06:19p 2,313 RatingCurrencyJButton.java 02/05/2003 02:07a4,555 RatingGamePanel.java 12/17/2002 06:29p 4,473 RatingJPanel.java12/17/2002 06:31p 11,547 RatingManagerConsole.java 02/05/2003 02:06a5,682 RatingPanel.java 11/04/2002 06:19p 2,501 RatingPlayerInfoJPaneljava 02/05/2003 02:07a 10,238 RatingPlayerPanel.java 11/04/2002 06:19p2,307 RatingSeatButton.java 12/17/2002 06:32p 3,176RatingSeatsJPanel.java 11/04/2002 06:19p 3,593 RatingSummaryPanel.java11/04/2002 06:19p 2,309 RatingTableButton.java 12/17/2002 06:34p 3,125RatingTablesJPanel.java 04/09/2002 01:46p 3,458 ReadComl.java 11/04/200206:19p 696 RemoteUpdate java 09/13/2002 07:26p 12,967ReportManagerConsole.java 05/22/2002 09:09p 22,971RobotManagerConsole.java 11/04/2002 06:19p 1,848 RoundButton java01/28/2003 11:32p 3,063 SearchColumnHeader.java 06/13/2002 09:08p 2,726SearchLDAP.java 04/15/2002 02:51p 2,392 SeatButton java 12/17/200206:25p 3,193 SeatsJPanel java 11/04/2002 06:19p 13,668SecurityManagerConsole.java 05/29/2002 05:53p 1,792 SecuritySession.java05/20/2003 02:20p 14,641 SendMail.java 04/22/2003 04:50p 594server.properties 12/05/2001 07:25p 1,086 ServerAlive.java 05/20/200311:05a 8,905 ServerPropertyLoaderThread.java 04/11/2003 04:40p 3,264SimpleHTTPServer.java 04/09/2002 02:33p 3,274 SimpleRead.java 04/09/200212:04p 3,149 SimpleWrite.java 11/04/2002 06:19p 1,849 smallButton java12/05/2001 11:33p 1,192 socketTest.java 11/04/2002 06:19p 4,472Splash.java 05/28/2003 10:27p 0 srclist.txt 12/17/2002 06:27p 3,177StakesJPanel.java 01/02/2002 04:48p 385 StartClientApp Java 11/04/200206:19p 543 startLogonScreen.java 08/26/2002 07:30p 667startManagerConsole.java 11/04/2002 06:19p 1,629 startPDA.java11/04/2002 06:19p 556 startRobotManagerDemo.java 04/15/2002 02:51p 1,940StatusLabel Java 05/27/2003 03:37p 199,640 StructuredQuery Java05/29/2002 10:14a 2,662 SwipeCardFocusThread Java 12/05/2001 11:47p 487SystemCheck Java 11/04/2002 06:19p 1,955 SystemClock.java 04/15/200202:51p 1,924 SystemExitButton.java 11/04/2002 06:19p 4,788SystemInit.java 09/24/2002 08:44p 9,978 SystemManagerConsole.java11/04/2002 06:19p 480 SystemPropertiesjava 02/15/2002 09:44p 6,066tablechoice.java 12/17/2002 06:28p 3,226 TablesJPanel.java 11/04/200206:19p 50,355 TableTron.java 05/20/2003 03:06p 26,045TableTronApplicationServer.java 05/20/2003 02:39p 8,559TableTronServerMultiThread Java 09/13/2002 07:43p 12,890TemplateManagerConsole.java 02/28/2002 04:47p 4,561 test.java 11/04/200206:18p 551 testCalculator Java 11/04/2002 06:18p 587testCasinoManager.java 04/09/2002 01:00p 336 testComPort.java 11/04/200206:19p 590 testDatabaseSystem.java 12/22/2000 10:02a 1,702TestDataSource.java 08/26/2002 04:37p 665 testFooter.java 03/12/200302:43p 669 testLegend.java 11/04/2002 06:19p 459 testList.java11/04/2002 06:19p 520 testMarquee.java 08/02/2002 01:45p 693testMultiAdd.java 03/07/2002 04:13p 460 testOracle.java 01/28/200305:07p 722 testPlayerBasicSearch.java 11/04/2002 06:19p 540testPlayerManager.java 11/04/2002 06:19p 18,677 testPrint.java09/11/2002 12:16a 650 testPrintPlayerVerificationTicket.java 11/04/200206:19p 548 testPropertyLoader.java 11/04/2002 06:19p 540testRatingManager.java 04/23/2002 01:35a 684 testRobot.java 11/04/200206:19p 549 testRobotManager.java 03/15/2002 08:01p 6,270 testt.java04/15/2002 02:51p 1,276 threadedClockLabel.java 04/15/2002 02:51p 1,266threadedDateLabel.java 11/18/2002 01:55p 20,568 TitanServer.java04/15/2002 02:51p 1,974 TotalButton.java 03/12/2002 04:05a 1,829TotalsButton.java 09/24/2002 08:44p 12,673 TournamentManagerConsole.java07/25/2002 12:09p 2,367 TournamentMenuButton.java 03/06/2002 11:18p3,688 TourneyTicket.java 11/04/2002 06:19p 2,686 TournyNode.java11/04/2002 06:19p 1,526 WatchPanel.java 01/10/2002 01:15p 9,342XMLParser.java 01/23/2002 08:53p 180 xValue.java 01/23/2002 08:51p 489yValue java 225 File(s) 1,787,248 bytes

BACKGROUND

A casino or other gaming environment can have poker rooms, table games(e.g., Blackjack, Roulette, Craps), slot machines and other gamingdevices which customers pay to play. Casino games usually involve aDealer, one or more Player(s), and some oversight by a person such asFloor Person. Shift Manager, and/or Pit Boss.

Poker rooms are frequented by Players who play poker at tables againstother Players. To play a game at a table in a poker room, Players areplaced upon waiting lists by Clerks and are called (by voice, ormicrophone) once their opportunity to enter a game arises. Clerksmaintain a waiting list via pencil, pen, and paper methodology.

Casinos sometimes offer Players compensation for playing. Floor Personsare responsible for oversight of Players' durations and level of play.At times, the table at which a game is being played may require support.Some forms of support include: restocking betting chips, recordingfinancial standings, security monitoring, and closing down games.Support operations may require the assistance of the Floor Person.Dealers may deal the playing cards for a specified duration. Dealersoften participate in rotations that require them to shift tables ofservice. Dealer rotation scheduling, maintenance, and oversight areprovided by the Dealer Coordinator (DC).

Table Games (e.g., Blackjack, Roulette, Craps), much like poker games,involve a Dealer, Player(s), and some level of supervisory oversight bya person such as a Pit Boss. Table games also operate similar to pokerrooms in that players receive compensation for play. Such dealerslikewise engage in rotations, and Tables where the table games areplayed require support.

FIGURES

FIG. 1 is an illustration of a graphical user interface, shown at aninitial display in accordance with an embodiment.

FIG. 2 is a Use Case Diagram of an overview of an embodiment.

FIG. 3 is a schematic illustration of the Application Service Providerarchitecture of an embodiment.

FIG. 4 is a schematic illustration of the network architecture of anembodiment.

FIG. 5 is a flow chart of a process of an overview of an embodiment.

FIG. 5 is a flow chart of a process of an overview of an embodiment.

FIG. 6 is a set of examples of how various embodiments of this inventionmay operate.

FIG. 7 is an illustration of a graphical user interface, shown at theView Tournament feature of the embodiment.

FIG. 8 is a flowchart illustrating an embodiment of a process fordeleting a tournament.

FIG. 9 is an illustration of an example of graphical user interface forNetwork Manager module.

FIG. 10 is an illustration of an example of graphical user interface forReport Manager module.

FIG. 11 is an illustration of an example of graphical user interface forSecurity Manager module.

FIG. 12 is a Use Case Diagram of a System Login operation.

FIG. 13 is a flowchart illustrating an embodiment of a process for aSystem Login operation.

FIG. 14 is an Activity Diagram for an embodiment of a process for aSystem Login operation.

FIG. 15 is an illustration of an example of graphical user interface forCasino Manager module.

FIG. 16 is a flowchart of a process for initiating Casino Managerfunctions.

FIG. 17 is an illustration of an example of graphical user interface forRating Manager module.

FIG. 18 is an illustration of an example of graphical user interface forPlayer Manager module.

FIG. 19 is a flowchart illustrating an embodiment of a process for aPlayer Check Out function.

FIG. 20 is another flowchart illustrating an embodiment of a process fora Player Check Out function.

FIG. 21 is an Activity Diagram for an embodiment of a process for aPlayer Check Out function.

FIG. 22 is an illustration of the printed hard copy receipts for anembodiment of a process for a Player Check In and Check Out operations.

FIG. 23 is an illustration of an example of graphical user interface forGame Manager module.

FIG. 24 is a flowchart illustrating an overview of an embodiment forGame Manager.

FIG. 25 is a Use Case Diagram of an Open Table operation.

FIG. 26 is a flowchart illustrating an embodiment of a process for anOpen Table operation.

FIG. 27 is another flowchart illustrating an embodiment of a process foran Open Table operation.

FIG. 28 is an Activity Diagram for an embodiment of a process for anOpen Table operation.

FIG. 29 is a Use Case Diagram of a Close Table operation.

FIG. 30 is a flowchart illustrating an embodiment of a process for aClose Table operation.

FIG. 31 is another flowchart illustrating an embodiment of a process fora Close Table operation.

FIG. 32 is an Activity Diagram for an embodiment of a process for aClose Table operation.

FIG. 33 is an illustration of an example of graphical user interface forList Manager modulo.

FIG. 34 is an illustration of an example of graphical user interface forthe virtual keyboard operation.

FIG. 35 is a flowchart illustrating an overview of an embodiment forList Manager.

FIG. 36 is a Use Case Diagram of an Add Player operation.

FIG. 37 is a flowchart illustrating an embodiment of a process for anAdd Player operation.

FIG. 38 is another flowchart illustrating an embodiment of a process foran Add Player operation.

FIG. 39 is an Activity Diagram for an embodiment of a process for an AddPlayer operation.

FIG. 40 is a flowchart illustrating an embodiment of a process for aDelete Player operation.

FIG. 41 is another flowchart illustrating an embodiment of a process fora Delete Player operation.

FIG. 42 is an Activity Diagram for an embodiment of a process for aDelete Player operation.

FIG. 43 is a Use Case Diagram of an Insert Player operation.

FIG. 44 is a flowchart illustrating an embodiment of a process for anInsert Player operation.

FIG. 45 is another flowchart illustrating an embodiment of a process foran Insert Player operation.

FIG. 46A is an Activity Diagram for an embodiment of a process for anInsert Player operation.

FIG. 46B is a flowchart illustrating an embodiment of a process for aLockup Player operation.

FIG. 46C is another flowchart illustrating an embodiment of a processfor a Lockup Player operation.

FIG. 46D is an Activity Diagram for an embodiment of a process for aLockup Player operation.

FIG. 46E is a flowchart illustrating an embodiment of a process for aLockup Public Seat operation.

FIG. 46F is another flowchart illustrating an embodiment of a processfor a Lockup Public Seat operation.

FIG. 46G is an Activity Diagram for an embodiment of a process for aLockup Public Seat operation.

FIG. 47 is a Use Case Diagram of a Multiple Add operation.

FIG. 48 is a flowchart illustrating an embodiment of a process for aMultiple Add operation.

FIG. 49 is another flowchart illustrating an embodiment of a process fora Multiple Add operation.

FIG. 50 is an Activity Diagram for an embodiment of a process for aMultiple Add operation.

FIG. 51 is a Use Case Diagram of a Marquee Display operation.

FIG. 52 is a flowchart illustrating an embodiment of a process for aMarquee Display operation.

FIG. 53 is another flowchart illustrating an embodiment of a process fora Marquee Display operation.

FIG. 54 is an Activity Diagram for an embodiment of a process for aMarquee Display operation.

FIG. 55 is a Use Case Diagram of a Profanity Checker operation.

FIG. 56 is a flowchart illustrating an embodiment of a process for aProfanity Checker operation.

FIG. 57 is another flowchart illustrating an embodiment of a process fora Profanity Checker operation.

FIG. 58 is an Activity Diagram for an embodiment of a process for aProfanity Checker operation.

FIG. 59 is a Use Case Diagram of a Duplicate Checker operation.

FIG. 60 is a flowchart illustrating an embodiment of a process for aDuplicate Checker operation.

FIG. 61 is another flowchart illustrating an embodiment of a process fora Duplicate Checker operation.

FIG. 62 is an Activity Diagram for an embodiment of a process for aDuplicate Checker operation.

FIG. 63 is a Use Case Diagram of a Public Seating operation.

FIG. 64 is a flowchart illustrating an embodiment of a process for aPublic Seating operation.

FIG. 65 is another flowchart illustrating an embodiment of a process fora Public Seating operation.

FIG. 66 is an Activity Diagram for an embodiment of a process for aPublic Seating operation.

FIG. 67 is an illustration of a graphical user interface, shown at theSecurity Manager Logs screen.

FIG. 68 is an illustration of a graphical user interface, shown at thePDA Notification screen.

FIG. 69 is an illustration of a graphical user interface, shown at theNetwork Manager screen.

FIG. 70 is an illustration of a graphical user interface, shown at theNotification Manager Send screen.

FIG. 71 is a flowchart illustrating an embodiment of a process for anInitials Search operation.

FIG. 72 is an Activity Diagram for an embodiment of a process for anInitials Search operation.

FIG. 73 is an illustration of a graphical user interface, shown at theInitials Search result screen.

FIG. 74 is a flowchart illustrating an embodiment of a process for aReserve Player operation.

FIG. 75 is an Activity Diagram for an embodiment of a process for aReserve Player operation.

FIG. 76 is an illustration of a graphical user interface, shown at theReserve Player function screen.

FIG. 77 is a flowchart illustrating an embodiment of a process forAverage Wait Time operation.

FIG. 78 is an Activity Diagram for an embodiment of a process forAverage Wait Time operation.

FIG. 79 is an illustration of a graphical user interface, showingAverage Wait Time displays.

FIG. 80 is a class diagram of the process for Monitoring List & Queueupdates.

FIG. 81 is a flowchart illustrating the process for client socketcommunications to the application server.

FIG. 82 is an illustration showing the Dealer Coordinator actors andfunctions.

FIG. 83 is a diagram of the process for Dealer Rotation.

FIG. 84 is an illustration of a graphical user interface, showing theView Rotation screen.

FIG. 85 is an illustration of a graphical user interface which showsRating Manager displays on PDAs.

FIG. 86 is an illustration of a graphical user interface, showing thePlayer Manager Expert View screen.

FIG. 87 is an illustration of a graphical user interface, showing theDealer Coordinator Create Rotation screen.

FIG. 88 is an illustration of a graphical user interface, showing theDealer Coordinator Re-Assign screen.

FIG. 89 is an overview of a process according to an embodiment of thisinvention.

DETAILED DESCRIPTION

Some embodiments of this invention enable a casino or otherestablishment to implement, manage, and/or report on crucial operationsinvolved in the casino or gaming environment. The term “casino” is usedin this application as a convenient description of an environment inwhich embodiments of the invention may be deployed. However it will beapparent that many other, non-casino environments are suitable as well.

Terms used in this application include:

Player: any person who plays a game.

Dealer: someone, such as a casino employee, who services one or morePlayer(s) at a game table.

Floor Person: someone, such as a casino employee, who supervises theoverall play and operation of a table or group of tables where games areplayed.

Clerk: someone, such as a casino employee, who operates and manages theplacement of Player(s) for games, e.g., with waiting lists.

Cage: a location for storing, e.g., cash, chips, tokens, and othervaluables. Pit: The name designated for a group of tables.

System: a device according to one or more embodiments of this invention.

Embodiments of this invention may be implemented as a suite ofcomputerized software tools linked together to provide real-timeoperational support for casino or gaming hospitality functions throughthe use of electronic devices. The electronic devices can includedevices in fixed locations and/or wireless devices which are moremobile. The electronic devices selectively communicate with each otherand with centralized electronic devices, including servers.

The software and electronic devices are referred to collectively as the“system”, for convenience. In some embodiments of this invention, thesystem can provide electronic interfaces and reporting capability. Itwill be apparent that, although certain types of devices are describedin this application, many other types are appropriate for implementingembodiments of this invention.

This invention may be implemented in any of a large number ofembodiments, some of which are described below, and others of which willbe apparent to the reader. Some embodiments of the invention may providesome or all of the following benefits:

(1) Displaying the availability and location of games, such as tablegames in a casino.

(2) Facilitating the creation, modification and visual display oftournament games, such as poker or other tournaments in a casino orother venue. In tournaments, which employ tickets (e.g. to identifyplayers), randomized tickets can be automatically generated. Intournaments where money or other tokens of value are employed, entryfees, re-buys, payouts, awards and other uses of such tokens of valuemay be calculated according specified business rules.(3) Facilitating the registration of players for table games. Customersor customer data may be identified through various known mechanisms,including barcode reading and/or magnetic stripe scanning, thus allowingcustomer resource management data to be received and processed (e.g. bycasino management or other interested parties).(4) Maintaining, processing and displaying sets of data about customers,such as customer lists and queues of customers waiting for variousgames, tables for games, or other resources. Players may be dynamicallyadded, deleted and moved on lists at the request of various authorizedusers of the system. Such data may be processed to yield information,including estimated, predicted or actual wait times for games, tables orother resources, as well as types of customers represented by the lists.(5) Facilitating the calculation of compensation points and providingpersistent and/or temporary storage of this information. Thisinformation may be utilized in various ways, including displayed at therequest of a customer, game manager, or other entity, emailed to thecustomer or printed for verification.(6) Providing a visual display of game information, including active andinactive tables, the current dealer at an active game, which registeredplayers are sitting at specific seats and win/loss statistics fortables. Such information may be utilized by, e.g. casino management andregulatory authorities. This allows players to see this informationeasier, and does not require casino employee interaction.(7) Automating manual accounting processes, such as table credits, tablefills and customer markers, thus increasing accuracy and allowing otherprocessing of such information.

Some embodiments of this invention use wireless technology, hand-heldcomputers, networking and persistent storage in a relational database tofacilitate or perform various functions.

The method and apparatus of various embodiments may employ the Internetas well as conventional communications systems such as Integrated VoiceResponse (IVR), self-service environments (kiosks) and cross-marketingopportunities.

Embodiments of this invention may be implemented as a suite ofobject-oriented software applications, using open software standards andcompatible with open computer hardware platforms and architectures. Whenimplemented in a modular nature, solutions for individual entities (e.g.casinos and hospitality operations) may be customized more easily.Further, as is well known, portions of a modular system may more easilybe used separately from other portions. Therefore, various modulesdescribed in this application may be used alone, or in conjunction withother modules.

In some embodiments, various activities of a casino or hospitalityestablishment may be managed. Many other environments are equallysuitable to this invention.

Benefits of certain embodiments are increased customer satisfaction,increased employee accountability, increased operational efficiency andreduced incidence of fraud.

The description in this application provides sufficient information fora person of ordinary skill in the art to implement a great manyembodiments of the invention. In particular, this application usesstandard industry notation such as Unified Modeling Language (UML), UseCase diagrams. Process Charts and Activity Diagrams in order to providedetailed guidance on design and implementation. Further, thefunctionality and architecture of various modules is also decomposed anddescribed in terms of subparts to facilitate understanding, replicationand customization.

The enclosed source code, which may be used to practice embodiments ofthis invention, is described in detail below.

Several system modules (also referred to as “Managers”) are described inthis application. Each module supports different features, and any orall of the modules may be organized and run as a single program, ifdesirable. The modules can interact with each other to ensure real-timefunctionality. The program can be accessed from several differentcomputing platforms, including: a personal computer, wireless handhelddevice or PDA (personal digital assistants including the PALMPILOT™ byPalm Inc., the BLACKBERRY™ by Research In Motion Limited, the iPaqPocketPC™ by Hewlett-Packard Company), computer tablet, and atraditional or cellular telephone. Data may be input using known devicesand methods such as touch screen, keyboard, buttons, mouse, voicerecognition, and stylus pen. The system can record transactions that thesystem processes. This recording of transactional data can permit thegeneration of historical reports, as well as operate in real-time mode.

FIG. 1 shows a user interface, which is displayable on a display device(e.g., computer monitor) in a well known manner. The user interfaceincludes twelve buttons, six on the left and six on the right. Eachbutton (when activated by a user in a manner which is well known)initiates the functions of one of the managers. Of course, more or lessthan twelve buttons could be included in the user interface. Similarly,the functions of any of the managers could be initiated in many otherways using known graphical user interface techniques.

FIG. 2 shows a Use Case Diagram in which a program (referred to as“TableTron”) according to an embodiment of this invention communicateswith six other actors, or entities. One such actor is a player. Otherentities are typically casino employees (or others responsible forrelated operations), such as an administrator, a floor manager, a casinoclerk and a shift manager. Another entity, the system, can refer to oneor more other software and/or hardware systems. For example, the programmay communicate with other casino computer devices, such as hoteldevices, restaurant devices, and devices that calculate playercompensation. In other embodiments, however, the embodiments that aredescribed in this application can actually constitute a part of suchdevices.

The system may be organized in a three-tiered architecture consisting ofan application tier, middle tier, and back office tier. For redundancy,there may be redundant application servers and redundant copies ofdatabases. FIGS. 3 and 4 show possible configurations of a three-tierarchitecture. However, many other configurations will be readilyapparent, and as is well known software can be efficiently run on manyother architectures, such as single tier and double tier architectures.

In an Application Tier, a client environment runs on, e.g., standalonepersonal computers or handheld mobile wireless devices (“PDAs”—PersonalDigital Assistants). In a Middle Tier, application main services run ondedicated computers referred to as Application servers. The applicationservers act as the main engine serving the requests of the clients andhandling communication to the database servers in a well known manner.In a Back Office Tier, data resides in databases on database servers.The database servers are computer devices that store the data used inthe program.

The Back Office Tier and Middle Tier can implement redundancy byperforming data copying, synchronization and load balancing, as is wellknown. The Application Servers and Database Servers can be runseparately (i.e. Application Server communicating with a dedicatedDatabase Server), or the database can be embedded within the programitself where the system will run on a combined Application/DatabaseServer. In some embodiments, data copying, synchronization and loadbalancing can be performed at the Application Server level.

The software described in this application can be run, accessed, andmanaged in a standalone fashion. In such a standalone setup, thecomputer equipment which is involved with running, accessing, andmanaging the program resides in a single location, such as in-house at acasino or otherwise on the customer's premises.

The software may also be run and executed by using an ApplicationService Provider. As is well known, this type of infrastructure permitsusers of the software program to run the application tier withoutincurring the cost or maintenance of the middle and back office tiers.Clients (e.g., PDAs and other computer devices in a casino) connect tothe middle and back office tiers via the Internet, private communicationline, or wireless satellite access. The connections can utilize enhancedsecurity methods such as VPN (Virtual Private Network) and CA(Certificate Authority) technologies. Virtual Private Network aredescribed in “VPNs: A Beginner's Guide” by John Mairs and MichaelMueller. Certificate Authority is described in “Digital Certificates:Applied Internet Security” by Jalal Feghhi and Peter Williams.

The Application Service Provider controls the maintenance and monitoringof the three tiers. The Application Service Provider can maintain anenhanced data center that provides redundancy and security forconnecting clients.

FIG. 5 illustrates a process for using the program to initiate any of anumber of the managers. As is seen from the top portion of FIG. 5, anactor who starts the program may select any of a number of options toinitiate one of the managers. As is seen from the bottom portion of FIG.5, various actors may interact with the managers as previously describedwith respect to FIG. 2.

FIG. 6 illustrates several examples of different actors interacting withdifferent managers. Text beneath each of the examples describesprecisely how the actor is interacting with the specified manager.

Detailed Module Descriptions

Below several managers are described, as are functions which constituteparts of those managers. The functions may be activated in many knownways (e.g., when a user presses a particular physical or graphicalbutton).

Tournament Manager:

Tournament Manager is a module which allows certain personnel to create,delete, modify, and view tournaments. Tournament Manager interacts witha database (which stores tournament information) to edit and update datain real-time. Many system features of tournament manager run behind thescenes away from the view of common users, players, and casino patrons.Tournament Manager can utilize wired devices and/or wireless networkdevices, as well as other peripherals to perform the followingfunctions.

“Create Tournament”

Create gaming tournaments based on a set of parameters that are chosenduring the creation process. Such parameters may be, for example, dateand time, entry fee amount, number of tables, number of players. Thesystem stores all tournament information and generates a uniqueidentifier (ID) for each tournament. The tournament data is stored inthe database.

“Modify Tournament”

Modify any existing tournaments that have previously been saved to thesystem. Modify values such as number of tables, seats, buy-ins, re-buys,entry fee, date, etc.

“View Tournament”

FIG. 7 shows a graphical user interface which is presented to a userwhen the View Tournament feature of the Tournament Manager is initiated.As seen in this graphical user interface, various data related to thetournament may be display to the user. Such data includes, for example,start time of the tournament, buy-in, entry fee, rebuys, total number ofplayers in the tournament, seats available in the tournament, and totalpurse of the tournament. Other data which can be displayed may include,for example, the prizes won by various winners, the tables remaining forthe tournament, the players remaining for the tournament, and break timeremaining for the tournament.

The “View Tournament” function can display active, past, and/or futuretournaments. The “View Tournament” function also displays data such astournament start time, number of tables in tournament, seatsavailable/not available for this tournament, buy-ins, re-buys, entryfee, winners, payout calculator and date of tournament. The “ViewTournament” function also serves as a visual guide for playersthroughout the tournament, allowing players to track their process andthe progress of other players. Both players and operational personnel ofthe tournament can have a graphical view of the tournaments status fromstart to finish.

“Delete Tournament”

Delete any specified tournaments in the system. Deleting tournamentsdeletes the tournament from an active or pending play status. Thetournament does not get deleted from the database allowing management torun reports on active, completed, pending, modified and deletedtournaments.

FIG. 8 illustrates a flowchart describing a process for deleting atournament.

“Tournament Payout Algorithm”

Calculates the running total of the tournament payouts based upon numberof entries in the tournament and any desired payout algorithms forspecific winning placements. Management and system users may modifypayout algorithms as they see fit by storing rules/data which define thepayout algorithm.

“Convergence of Tournament Tables”

Calculates the number of contestants remaining in the tournament andautomatically moves contestants to new tables to ensure table capacityand free up unused table space for non-tournament patrons. While atournament is active, the system users can modify the tournament byselecting how many and which players remain in the tournament. Once thesystem collects this information, it can automatically adjust theseating arrangement of players to conserve seats.

“Tournament Tickets”

A function that allows the printing of specialized unique tournamenttickets for given tournaments. Replaces the method of ordering bulktickets and carbon copy forms. This feature gives the establishment theability to create custom tickets on demand. Many types of printers willbe recognized as appropriate to print such tickets, including BOCA orPRACTICAL AUTOMATION thermal printers. Similarly, many types of paperswill be recognized as appropriate for use with such printers and forsuch a purpose, including “thermal tag stock” paper. Unique system IDsand barcodes may be printed on the tickets, which can render duplicatedtickets ineffective, and which can therefore help verify legitimateplayers' claims to specified tournament prizes or tournament entries.Tournament tickets may also be used to present promotions and marketingmaterial printed on the tickets. For example, many types of offers andadvertisements may be printed on the tickets, and the types ofoffers/advertisements can change with time, be different for differentplayers, for different tournaments, for different types of players, etc.

“Tournament Up-Sell”

A marketing feature that permits the up-sell of establishment goods andservices to be presented to tournament contestants. The up-sell may beused on tournament tickets or in the registration process of atournament.

“Tournament Bracket Display”

A visual display of all registered contestants, seating assignments, andtournament statistics. Allowing contestants to view to currenttournament progress. The visual display of active players, seatarrangements, and which players are leading the tournament.

“Free Roll Transfers”

A method for transferring free-roll applicants of a desired tournament.Free-roll tournaments are those in which there is no buy-in or entryfee. The system allows players to qualify and be transferred totournaments via free-roll.

“Satellite and Double Elimination Tournament Support”

Satellites are tournaments in which the winner earns a buy-in into alarger tournament. The system automatically registers the winners ofsatellites with the desired tournament of choice.

System Manager:

The System Manager includes features by which administrators can setcertain parameters which instruct the system how to respond and rununder certain circumstances. The System Manager allows establishments tocustomize the program directly to their needs. By providing acentralized management console, System Manager provides the basicstructure for the deployment.

“Help Menu”

An interactive help menu system designed to give users of the systemassistance to all available modules and features. The help menu isdesigned to be accessible from any point in the program. The help menuincorporates both text assistance as well as recorded animation of theprocedures to run the system. Users can search for help via text, voice,or video.

“View System Status”

A visual display for system administrators to determine the system'sstatus. Allows administrator to see on- or off-line statuses of devices,users, and features. System administrator may also view licensing,contact, and support information.

“Set System Parameters”

Permits administrators to set specific business rules within the systemsuch as notifications, displays, table rules, etc. These systemparameters are used throughout the system to assist the automatedfunctions that the system performs such as payouts, compensation points,etc.

“Set Marketing Parameters”

Helps administrators set marketing and up-sell parameters for the systemto use for specific dates and times. Setting these parameters and valuestells the system when and where to display the marketing information andfor how long.

“Set Security Parameters”

Permits system administrators to set the security parameters for thesystem in regards to user access, data encryption, network deviceaccess, and notification procedures.

“View System Contacts”

A comprehensive list of system and vendor contacts, emergency contactprocedures, and support contact procedures.

“QueueCache”

QueueCache is a data-buffering feature which enables all three tiers (ina three-tiered embodiment) to utilize an enhanced fail-safe softwaremeasure. QueueCache allows the buffering of data to provide performanceand recovery from potential communication outages. QueueCache usesvarious known algorithms that protect against the potential loss ofdata. Both the clients and application servers consistently monitor andcommunicate the status of the communications network. In the event of acommunications failure at any point in the network, the clients andapplication servers buffer or store their data locally to that device.Upon communication re-establishment the systems transmit their bufferedor stored data first to ensure no data loss and correct sequencing ofdata.

“Web Connector”

A method for posting designated internal system parameters (e.g., ListManager View Display) to an internet/intranet website or forum. WebConnector is utilized for the technical support of the program. Theprogram is designed to generate proactive system monitor logs and usingthe web connector can send the specified logs automatically without userintervention to the program support group. The industry standardprotocols used for the Web Connector are SMTP (Simple Mail TransportProtocol—for email) and HTTP/S (Hyper Text Transfer Protocol/Secure).The Web Connector enables the system to gather custom specified data andsend or transfer that data to desired users, groups, or other emailsystems. The Web Connector may be constructed using industry standardprotocols as the network transports. An example use of the Web Connectorwould be: if a computing device had a communications failure, theapplication server would use the Web Connector to gather, format, andsend the alert data to pre-specified destinations.

“Web Publisher”

A design template for preparing specified internal system informationsuch as player information & game information to be posted to the webconnector agent for intranet/extranet viewing. The Web Publisher acts asthe gathering and formatting tool for the Web Connector. The WebPublisher job is to gather the data from the database, format the datainto the correct structure for transmission, and handoff the packet tothe Web Connector for transport. Web Publisher defines a set of rulesthat tell the system when, where, and how to get the informationprepared for transit.

“Electronic Display Driver Support”

A specialized serial interface to communicate directly to electronicdisplays, such as the Trans-Lux™ electronic display. The system containssoftware drivers that allow displayed data to be viewed on differenthardware appliances. The program detects which display hardware is beingused, and performs formatting of the data to be displayed correctly onthe type of display being used. The system also provides an interfacemechanism to “write” the data to the display in the correct manner sincedifferent displays may require a different manner to which data isreceived.

“Voice Activation and Response Unit”

The system utilizes voice activation commands and a voice recognitionengine to decipher those commands. The voice activation process allowsusers to speak commands into either a telephone, or computing devicewhich the system then interrupts and processes the commands. The voiceresponse unit allows system users to “call” into the system via atelecommunication device (telephone or computing device) and receiveautomated voices responses to the desired information.

“Embedded Applications Download”

To ensure the protection against software piracy, the system uses adownload method of attaining the appropriate program files to run theprogram (both application server and clients). Upon start-up theapplication server and/or clients query a “system appliance” devicelocated either on- or off-site. The system appliance validates the

machine and downloads the program files to the machine's memory store.The machine then runs the program out of memory, thus limiting theamount of files and potential piracy associated with storing programfiles on the machines itself. The “system appliance” also serves as anupdate devices where the application server and/or clients query theappliance at scheduled times to locate any program file updates (such aspatches and new program versions).

“Knowledge Base with Decision Rule Maker”

The system houses a standardized set of gaming rules which allowssystems users to query the system for house or industry standard gamingrules. In the event of a player-house conflict, the user may query theknowledge base to determine what the standard rules are to resolve theconflict. The system may also suggest a solution based upon a historytracking table of rule conflicts. The system attempts to standardize therules so that users and players have clear solution in the event of aconflict.

“Database Synchronizer”

The Database Synchronizer allows administrator to synch or create areplica of the system's database on any other industry-standardrelational database. Establishments may wish to synchronize the system'sdatabase with another in-house database for purposes of backup,recovery, or reporting. Internally, the system automaticallysynchronizes with a secondary database if two or more applicationservers exist.

“Credit Card Processor Engine”

The system has a built in credit card processing unit that allowspatrons to pay for services via credit cards, which are either enteredor stored in the system. The application server will make theappropriate communications uplink to an authorized bank or processingfacility to complete all credit cards related transactions.

“Legacy Agent Robot”

The legacy agent feature communicates to back-end existing systems suchas AS400 or ACSC patron management systems. Using both screen scrapping(a technique that maps out the coordinates on a computer terminalscreen, writes information to the appropriate fields and sends the dataas if a manual entry was conducted) and socket based connections, thesystem can accurately upload data to existing back-end systems. The twomethods are used to update existing systems, provide replica data, andeliminate manual entry of data. The screen scrapping method uses anexisting upload program and acts as a virtual user entering data. Thesocket-based communication encapsulates the data into packets that theback-ends system can understand and transmits that data to the back-endsystem directly.

Network Manager:

Network Manager is designed to assist in the setup, maintenance, andsupport of the computer network topology through which the programcommunicates. Utilizing technology such as data load balancing, serverredundancy, encryption, and monitoring agents enhances the program'sperformance. Network Manager is a management console enablingadministrators to control the attributes and behaviors of their computerdevices (e.g., desktops, PDAs, servers) throughout the topology. WithNetwork Manager, administrators of the system can selectively add,delete, or modify computing devices from a virtual map layout. Thedevices can be aligned to form a geographical map of each device'slocation. Network Manager allows administrators to test devicecommunications, ensure security mechanism are being followed, and viewproactive communications monitoring. The manager provides administratorsa graphical view of the devices and their statuses throughout thecomputer network.

FIG. 9 illustrates a graphical user interface which is displayed uponinitiating the Network Manager.

“Add Network Device”

Adds a network device to the system topology to be used and monitored.

“Modify Network Device”

Modify an existing network device in the system topology.

“Delete Network Device”

Delete a network device from the system topology.

“View Network Device Status”

A real-time display of all networked computing devices that reside inthe system. Providing device status, uptime, and any alerts to thehealth of the device. An example of such a display is shown in FIG. 69.

“Workstation Manager”

Allows administrators to remotely control the workstations (e.g.,personal computer devices) that make up the system topology. The featureallows the ability to run certain procedures remotely to maintain thestatus of each personal computer device.

“Wireless Manager”

Provides the system administrator to control the flow and redundancy ofdata transmissions throughout the wireless portion of the systemtopology. The wireless manager maintains industry standard 802.11bwireless protocol technology. Wireless managers also allow managementpersonnel to pinpoint the location of their wireless devices anywherewithin the wireless range.

“Infrastructure Manager”

Allow administrators to control remotely the infrastructure devices thatmake up the system topology communication segments. The feature allowsthe ability to run certain procedures remotely to maintain the status ofeach device.

“Ping Network Device”

An industry standard tool for testing the connectivity to a networkeddevice.

“Integrated Locator System (ILS)”

Integrated Locator System allows management personnel to pinpoint thelocation of their wireless devices anywhere within the wireless range.

Template Manager:

Template Manager cases redundant system resources and procedures byproviding the ability to use resource templates. With templates,administrators can quickly and easily maintain other areas of theprogram and quickly increase the establishments' productivity. TemplateManager allows administrators and users of the system to quickly create,delete, and modify a pattern or structure applicable to many systemresources. Template Manager can be used throughout all system modulesand may also be protected by permission set forth by administrators. Forexample, a poker room manager would have the ability to create atemplate for upcoming tournaments which would include the pre-configureddate, time, amount, entry fees, table number, etc.

“Create Template”

Create a new template for a system resource.

“Modify Template”

Modify an existing template for a system resource.

“Delete Template”

Delete a specified template.

“Print Template”

Print a specified template to a local or networked printer.

Report Manager:

Report Manager allows authorized personnel to view real-time andhistoric data. The Report Manager may be enabled to be constantlyactive, thus ensuring real-time capability. By utilizing event-triggeredmethods, the real-time status of an establishment's areas of businessmay be ascertained. The report Manager incorporates different featuresin which the data is formatted and delivered to the inquiring parties.Report Manager can use predefined reports. Additionally, individuallycustomized reports can be created by users. Report Manager activelysearches the database for the records and data need to complete thereport query and returns the results back to the user in graphicalformat. Report Manager has an automated scheduling system in whichreports may be set up and run without any user intervention.

FIG. 10 illustrates a graphical user interface which is displayed byReport Manager. That user interface displays a report which includesseveral items pertaining to the status of a Pit (“Pit 2”).

“Real-Time Reports”

Utilizing structured update calls, the system provides clients real-timereporting capability on specified data chosen by the user.

“Historical”

Historical reporting provides users of the system access to historicaldata stored by the system in the database. Allowing users to query dataon a specified set of parameters for any past date and time.

“Automated Reports”

Methods in which a real-time report can be sent via electronically orprinted after certain predefined parameters trigger the reporting event.Electronic messages can be sent, e.g., via e-mail, instant message,pager, or voice mail.

“Slot Attendant”

The Slot Attendant function allows system users to view reports of slotmachines. Information gathered such as cash contained, uptime, downtime,hit counters, location and maintenance records are all viewable throughRepot Manager Slot Attendant.

Notification Manager:

Notification Manager is the system's alert engine. Notification Manageris a watch engine that looks for certain parameters that raise red flagsin the system. These notifications may be based on business rules and/orsystem conditions. Notification Manager can be customized to meet anestablishment's needs and priorities. Industry standard protocols may beused to alert and notify predetermined individuals of certain systemconditions and business rules violations. Notification Manager allowsthe establishment to be notified proactively on any condition they deemto be vital. The Notification Engine utilizes the industry standardTCP/IP (Transmission Control Protocol/Internet Protocol) as themechanism for transport. Business rules and system conditions arepre-set by system administrators. The groups, departments ordestinations to which the messages are sent are also set forth byadministrators. Loss of communication to a computing device is anexample business rule violation that could initiate a notificationmessage being sent to a set forth party.

FIG. 68 is an illustration of a graphical user interface, including anotification message, shown on a PDA.

FIG. 70 is an illustration of a graphical user interface which permits auser to create and send a notification. The user interface allows theuser to select a recipient and corresponding message.

“Start Notification”

The “Start Notification” function starts the notification engine andbegins to capture and send messages.

“Stop Notification”

Stop Notification stops or pauses the notification engine and queues upthe inbound and outbound messages to a buffer pool. Once notificationbegins the queue is flushed and all paused messages are delivered.

“Clear Notification Log”

Enables administrators to clear or flush the notification log file whereall transactions are recorded.

“View Notification Log”

Display the log of recorded transactions that the system has processed.

“Add Notification”

Add a custom notification based on a set of system parameters determinedby the system administrator.

“Modify Notification”

Modify an existing notification by adding or removing parameters.

“Delete Notification”

Deletes a notification from the system.

“Set Notification Parameters”

Allows administrators to customize how and when notifications are sentand received.

“Send Message”

Permits users to send instant text and voice based messages to otherdevices within the system topology.

“E-mail Support”

The system feature that enables the emailing of patrons, management, orother system users data that is set forth via business rules. The systemmay email players compensation or play statistics, email managementreports, etc.

“Web SNMP Notification Engine (WSNE)”

This feature combines the industry standard SNMP (Simple NetworkManagement Protocol) with a web based communication protocol(HTTP/HTTPS) to send system alerts to technical support representativesvia the Internet or intranet. The system allows the capture of SNMPpackets, encapsulates those SNMP traps into an HTTP or HTTPS (secure)packet, and then forwards those packets to a desired destination. Uponretrieval of the packet, a small java program deciphers that packet toretrieve the SNMP trap or alert. This eliminates the need for SNMPmanagement software by utilizing the industry standard HTTP/HTTPS webnetwork protocols.

Security Manager:

Security Manager allows system administrators to set security policiesand procedures by using an industry standard security protocol calledLight Directory Access Protocol (LDAP). LDAP is described in“Understanding and Deploying LDAP Directory Services (2nd Edition)” byTimothy A. Howes, Mark C. Smith, Gordon S. Good.

Security Manager assigns security levels and privileges to individualusers and groups of the system. Security Manager also establishes dataencryption schemes to ensure that any transmitted data is securelyencrypted and protected from outside threats. Security Manager maintainsthe relationship between the users of the system and the securitydatabase where access levels are granted. Security Manager supports theuse of Smart Cards and Smart Card readers, an industry standard securitymechanism validating the authenticity and integrity of system users. Useof Smart Cards also enables the system clients to be run using “thinclient” or “dumb terminals” devices. Thin clients are devices thatprocess all data including operating system and programs off acentralized server.

FIG. 67 is an illustration of a graphical user interface shown at theSecurity Manager Logs screen. The illustrated interface shows data on anumber of security events, including when the event occurred, who wasinvolved, and the severity of the event.

“System Login”

By using an industry standard authentication method (LDAP), the systemlogin process validates a user's identity and access privileges. Themethod of authentication can be derived from many known mechanisms,including barcodes, magnetic stripe cards, text based passwords, voicerecognition, or fingerprint recognition. Login transactions are recordedby the system for tracking, accountability, and administrative purposes.The system can easily integrate into an existing LDAP environment orprovide it's own standalone authentication domain.

FIG. 11 is a sample display that is shown to a user when the user isexpected to swipe a card thru a card reader, thereby identifying theuser. FIGS. 12-14 illustrate a process for system login.

“System Logout”

The process by which a users logs themselves out of the system.Capturing the transaction, the system updates the user's profile withinformation captured during the session. Once the user is logged out ofthe system, the user must log back into the system to gain access.

“Add User”

Add a user to the system directory for access.

“Modify User”

Modify an existing user's profile.

“Delete User”

Delete a user from the system removing all associated access privileges.

“Disable User”

Disable a user's account where that user is not removed from the systembut the user has no permission to access any area of the system.

“Active User Display”

Display for administrative personnel a real-time description of whichusers are active in the system and their corresponding locations ofactivity.

“Set User Permissions”

Provide users with different security levels which can permit or denythem access to certain areas of the system or access to certain systemdevices.

“Add User Group”

Allow administrators to group like users into a single group that holdscertain security levels. All users included in the group follow thegroups' security privileges.

“Modify User Group”

Modify the parameters of a certain user group of the system.

“Delete User Group”

Remove a user group from the system.

“View User”

Display showing the profile of a specified user, including personalinformation, security level, employee identification, license number,digital signature, and/or photo identification.

“View User Group”

A visual display showing the users and parameters associated with thespecified user group.

Casino Manager

Casino Manager performs casino wide business functions. Casino Managerincludes functions for requesting credits, fills, and markers. Tableinventory and table history methods are included along with a schedulingmodule used in the management of dealers. Casino Manager allowsfunctionality to be run from either a standalone personal computer orfrom a wireless handheld device or PDA (Personal Digital Assistant).

FIG. 15 is an illustration of an example of graphical user interface forCasino Manager in which a table and an amount of chips may bedesignated, along with other functions applied to such a table andamount of chips. Note that a similar interface may be used in otherfunctions to enter chip denominations and/or chip amounts.

FIG. 16 is a flowchart of a process for initiating Casino Managerfunctions.

“Table Inventory”

Allows users to accurately and electronically track table inventories atstartup and closure of each table session. The system records allinventory values and updates the table roadmap accordingly.

“Roadmap”

The roadmap keeps a constant accounting cycle of a table's financialsituation. All table transactions are recorded and entered into theroadmap by the system with no user intervention.

“Credit”

The credit feature automates the credit request made by pit and floorperson. A fill request is recorded by the system and transmittedelectronically to the casino back end system. A system printed receiptallows employee signatures and barcode verification for tracking.

“Fill”

The fill feature automates the fill request made by pit and floorperson. A fill request is recorded by the system and transmittedelectronically to the casino back end system. A system printed receiptallows employee signatures and barcode verification for tracking.

“Marker”

The marker method allows pit and floor personnel to request playermarkers for gaming purposes. The system generates the request to thecasino cage and handles accountability and tracking of the requests,along with sequential printed receipts for employee signatures.

“Dealer Coordinator”

Dealer feature allows dealers and authorized personnel to perform dealerpreferences and dealer scheduling. The feature allows dealers toregister themselves into the system upon the beginning of a work shift.The system using random generation schedules dealers for certain gamesand breaks based upon preloaded dealer preferences. Cross referencingavailable Dealer pools to cover lost shifts and table dealernecessities.

FIG. 82 is an illustration showing the Dealer Coordinator actors andfunctions.

FIG. 83 is a diagram of the process for Dealer Rotation.

FIG. 84 is an illustration of a graphical user interface which shows theView Rotation display this user interface shows information regardingvarious shifts, and responsibilities of personnel in the shifts.

FIG. 87 is an illustration of a graphical user interface which shows theDealer Coordinator Create Rotation screen.

FIG. 88 is an illustration of a graphical user interface which shows theDealer Coordinator Re-Assign screen.

“Request Player Card”

A method that allows a user to request a player identification card beprocessed for a particular player. The system generates a request and issent to the establishments computer system responsible for handlingplayer identification cards. Typical requests stem from lost or damagedplayer cards.

“Security Alert Request”

A feature which allows a user of the system to request securityassistance to a gaming table or area. The system generates an alertnotification to the establishments security division. To combat fraudwithin the establishment the user has the capability to send a real-timerequest for assistance. The system calculates the exact location of thealert origin and notifies security personnel.

Rating Manager:

Rating Manager tracks the characteristics of wagers by players. Users ofthe system have the ability to record the wagers of players, calculateaverage wagers of players, and track duration of play by a player.Rating Manager cooperates with Player Manager in order to calculate andassign a player's compensation points. Compensation points are typicallycalculated based on the amount the player wagers, but may also becalculated in other many ways, including based on time, playercharacteristics, and/or fixed amounts. FIG. 17 is an illustration of anexample of graphical user interface for Rating Manager module whichallows a user (E.G., Pit Boss. Floor Manager) to enter a wager amountmade by a player. In particular, the graphical user interface allows aplayer to be selected by selecting a table and seat at which the playeris seated. Note that a similar interface may be used in other functionsto indicate (by a seat at a table) a player. The graphical userinterface also allows a wager of this player to be entered and therebyrecorded by the system. Note that a similar interface may be used inother functions to enter wager amounts. The system also may display, viathis user interface, the duration of play by this player and the averagebet of this player, which may be computed from data previously entered,such as prior wagers and when the player checked-in to begin play forthis game FIG. 85 is an illustration of a graphical user interface whichshows Rating Manager displays on PDAs (e.g. a PDA operated by a Pit Bossor Floor Manager). The left display shows a graphical user interfacewhich allows a table and seat to be selected by the user of thegraphical user interface. In the right display shows a graphical userinterface which allows a wager for the player at this seat to beentered. This display also provides the user with information regardingthis player, such as the table and seat of the player, the game playedby this player, the player identifier, the duration of play of thisplayer, and the average bet of this player. Such data can be calculatedfrom data previously entered.

Rating Manager functionality is implemented by the software described inthe following source code files, filed herewith and incorporated in thisapplication by reference.

RatingChipPanel.java

RatingCurrencyJButton.java RatingGamePanel.java

RatingJPanel.java

RatingManagerConsole.java RatingPanel.java

RatingPlayerinfoJPanel.java RatingPlayerPanel.java

RatingSeatButton.java

Rating SeatsJPaneljava

RatingSummaryPanel.java RatingTableButton.java RatingTablesJPanel.java

“Current Wager”

Records a wager amount of a player at a table game. This function istypically activated (e.g., by a Pit Boss or Floor Person via a PDA)during the game immediately after the player makes a wager. Thisfunction is also typically activated to record several wager amounts ofthe player.

“Average Wager”

Calculate the average wager of a player by averaging the accumulatedwagers previously recorded during this player's active session (e.g.,this game, this type of game, this tournament, this day at the casino).

“Away Status Button”

Indicate and record when a player is/is not absent from an active gamesession (e.g., the player has momentarily left the table, the playerthat paused play for some reason). A toggle button may be used to easilytoggle a player's “away status”, and thereby record whether the playeris actively playing at any time. As described in this application, thesystem may use play duration and/or “player away” duration to calculatecompensation points.

“Chip Count”

Record the amount of chips that a player brings to the table or leavesthe table with. As described in this application, by tracking the chipcount, the system can ascertain, in real-time, the chip count for atable.

“Player Session Duration”

A feature that allows the system and users to track the play duration ofa player at gaming tables.

“Player Seat Tracking”

A method that tracks the seat assignments and changes made by a playerduring their active session at a gaming table.

“Chips In”, “Chips Out”

Record the amount of chips that a player brings to a gaming table/theamount of chips that are relinquished by a table to a player.Specifically, the system records player and table transactions for agame. Upon the opening or closing of a game, the Pit Boss and Dealer canperform a Table Inventory. This inventory can be entered into thesystem, allowing the gaming establishment to record the table inventoryis upon open and close. Also, when players enter a game, they canreceive chips from the table in exchange for cash. The Pit Boss (oranother user) can enters this “buy-in” amount into the system (e.g., viaan interface that allows a player to be selected and a chip amount to beentered.

This data entry, which indicates a number of chips the playerstarts/ends a game with, is then saved and processed by the system toupdate player and table inventory data in the database. By providing theability to register the amount of chips that come in and out of a table,the system can accurately determine the table's win/loss amount.

“Total In”

Records the amount of markers and cash that a player uses at a specificgaming table.

“Total Out”

Record the amount of chips that a player takes from the gaming tableduring an active session.

“Wager Notification”

Allow users to notify certain personnel of possibly fraudulent wagingpractices. For example, since the recorded player bet may be tracked, asignificant deviation from the player's recorded wager amounts (e.g.over a time period such as one day, over all recorded bets of theplayer) may be noted and communicated to the proper entities. Similarly,if not enough samples of a player's wager amounts have been recorded,this may indicate a problem with the person responsible for recordingthe bets (e.g. possible collusion with that player, because that personhas not recorded the player's lower wager amounts).

In ascertaining a deviation amount by which at least one of the wageramounts deviates from other wager amounts, many known methods may beused, such as the absolute value of the difference between the one wageramount and the average of the remaining wager amounts, or the percentagedifference between the one wager amount and the average of the remainingwager amounts. Various types of thresholds may be established, asdesired, to indicate when a deviation is to be considered significantenough to warrant notification.

Such notifications may include a message sent to predefined personnel(e.g., Floor Manager, Pitt Boss) and/or a message which is stored orrecord (for future reading by others, for future auditing).

“Calculate Rating”

The system can ascertain the elapsed time between when the player startsplaying and when the player ends playing (e.g., by subtracting the stoptime from the start time, minus any duration(s) of “player away”). Basedon the elapsed time the system can calculate a player rating in any of anumber of ways the casino desires. A player's rating may possibly butnot necessarily include an amount of additional compensation pointsearned by the player for his play.

An example of a rating, specifically a poker rating, performed by RatingManager is provided below:

Ratings level (which may indicate compensation points or other benefitsto the player) in poker games may be based on wager amounts of the game,or the type of game at the table. For example, the player may be awardedcompensation points (valued at certain dollar amounts) based on theduration of play and the table “stakes” or wagers of the player, suchas:

Level 1—Stakes under $20 earn $1.00/per hour

Level 2—Stakes over $20 and under $60 earn 1.50/per hour Level 3—Stakesover $60 earn $2.00/per hour

Such rating levels are of course stored in the database, and can bechanged by administrators to implement various compensation schemes.

A player may be awarded compensation points based on the followinginformation recorded by the system:

Player Name Play Start Time Play End Time Level Player A 10:00 AM 12:00PM 2

Thus, the system calculates the compensation points (in dollars) forthis player by the following equation:Rating per session=2(hours of play)×1.50(hourly rating amount for alevel 2 player)=$3.00

Note that the system itself may calculate an amount of compensationpoints for the player based on the elapsed time. Alternatively oradditionally, the system may simply transmit the elapsed time to acompensation system (in an embodiment where the casino has an existingcompensation system which cooperates with the present system).

Player Manager:

Player Manager permits a player to be registered for a specific game(e.g., at a table). By registering the player, the system can accuratelycalculate seating and game capacity as well as track player activities.Using a security mechanism, the system tracks a player's registrationacross the entire gaming establishment. The player registration isrecorded via a player identification card (e.g., encoded with a magneticstrip storing a player identifier) that is swiped thru a card reader(e.g., operable to transmit a signal, from cards that are read, to adesktop computer or PDA). The player may be identified from such asignal by translating the signal to a corresponding player identifierread from the card, and looking up that identifier in a database ofplayer information.

Players may check in themselves (e.g. by swiping their own playertracking card) or may be checked in by another (e.g. by a casinoemployee that swipes the player's card). Players that check themselvesout may be prompted to enter other data (e.g. via a nearby keyboard).For example, players may be prompted to enter their email addresses sothat they may receive an email receipt. This would facilitate thecollection of email addresses of such players.

FIG. 18 is an illustration of an example of graphical user interface forPlayer Manager module. This interface allows a player to be identified(by swiping a player tracking card). This interface also allows theidentified player to be checked into or out of a game and thecompensation points of the player to be verified. In addition, theinterface may display player information, such as the player identifier,when the player was checked out of a game, the game the player waschecked out of, and other game related information.

FIG. 86 is an illustration of a graphical user interface, showing thePlayer Manager Expert View display. This interface allows a player to bechecked into or checked out of a particulars seat at a particular table.This interface also displays information about the table and seats atthat table, such as whether the seats are available for additionalplayers or not.

Player Manager functionality is implemented by the software described inthe following source code files, filed herewith and incorporated in thisapplication by reference.

PlayerBasicSearch.java

PlayerCard java

PlayerCashPanel.java

PlayerChipPanel.java

PlayerGameButton.java

PlayerGamePanel.java

PlayerHistoryView.java

PlayerManagerConsole.java

PlayerPanel.java

PlayerSeatButton.java

PlayerSummaryPanel.java

PlayerTableButton.java

PlayerVerificationTicketLayout.java

“Check In Player”

Register a player at a specific gaming table and seat. The systemrecords player information and begins to record play duration and playcharacteristics that are used by the system to determine, e.g.,compensation and player profiles. Thus, activating this function (e.g.,by receiving a swipe of the player's player tracking card and/or abutton press by a dealer or other personnel to indicate a seat at thetable) allows the system to ascertain when a player starts playing agame at a table.

“Check Out Player”

Record the end of a player's active session and remove the player fromthe game at this table. The system calculates the player's sessiongiving that player the correct amount of compensation. The system thentransmits the player data to the establishments main rating system.

Thus, activating this function (e.g., by receiving a swipe of theplayer's player tracking card and/or a button press by a dealer or otherpersonnel to indicate a seat at the table) allows the system toascertain when a player stops playing a game at a table.

FIGS. 19-21 describe a process for a Player Check Out function.

“Verify Player Points”

Display the amount of compensation points that a player has accrued. Thesystem queries the database and/or the establishments' main ratingsystem database for the player's current point status. This function maybe activated by the player (e.g., at a terminal with a card reader)and/or by casino personnel (e.g., a Dealer).

The data may also be sent instead of or in addition to being displayed.The player may choose to have their session or historical recordings ofcompensation points sent to them either via e-mail or traditional postalmail. To facilitate such sending, a player's personal information may berequested by the system.

“Player Assignment”

Binding a player to a specific gaming table and seat location fortracking, accounting, and profile purposes.

“Player Card Swipe”

Read, e.g., a magnetic stripe or barcode from a player identificationcard, and recorded the identifier for player tracking.

“Active Play Verification”

A security feature that ensures the establishment that a player may notbe registered for multiple games at one time. The system can ascertainwhether the player has attempted to register for another game (e.g., atanother table).

To reduced fraudulent practices of undue compensation points awarded tothe player, the player may only be registered at an active gaming tablewhere there are seat locations available for play, and the player mayonly be registered for one game at a time. If the system detects thatthe player is attempting to register at another game, the system willautomatically close out the previous game the player had checked intobefore starting a new session at the other game.

“Player Statistics Display”

Display player profiles and historical characteristics.

“Forbidden Player Notification”

A security method that restricts players who have a “banned” status fromregistering and playing at a gaming table by way of a systemnotification directed to the pit personnel, administrators, and securitydivision.

“Print Player Check-In & Check-Out Tickets”

Print, on a ticket, information about the game. Establishments maydesire to have a hard copy of their players' ratings. The printing ofplayer tickets is controlled by the program's main processing engine.The printed tickets can include establishments customized data show thesession playing time and compensation rating for each player. FIG. 22shows examples of such tickets

Game Manager:

Game Manager allows certain personnel to open, close, modify, and viewgames. Game Manager interacts with the database and clients to ensurereal-time updates and monitoring of games. Game Manager interacts withother modules such as List Manager without requiring user intervention.Game Manager of course supports both stationary and mobile electronicinput devices.

FIG. 23 is an illustration of an example of graphical user interface forGame Manager. In particular, this interface allows various poker tablesto be designated as active or inactive.

FIG. 24 is a flowchart illustrating of an overview of an embodiment forGame Manager. In particular, the flowchart describes a process by whichan actor may start Game Manager and invoke various Game Managerfunctions.

“Open Game”

Open a new game on a specified table and give the table an “active”status. FIG. 25 describes how various actors may interact with the OpenGame (or “Open Table”) function. FIGS. 26-28 describe in detail the“Open Game” function.

“Modify Game”

Modify the current game on the specified table.

“Close Game”

Close the current game on the specified table and give the table an“inactive” status. FIG. 29 describes how various actors may interactwith the Close Game (or “Close Table”) function. FIGS. 30-32 describe indetail the “Close Game” function.

“Must Move Game”

Protect a main game by backfilling players from temporary tables to themain table as seat becomes available. The system automatically handlesall instructions to floor and pit personnel about which players to moveand to which seats the players be moved to. The system handles playermoves by establishing table relationships and recording the order inwhich players have seniority to play at the main table.

“Active Game Display”

A display showing the active tables and associated games within a pit orspecialized gaming room.

“Inactive Game Display”

A display showing the inactive tables within a pit or specialized gamingroom giving personnel real-time analysis of table capacity.

“Active Seating Display”

A method that displays real-time seating capacity.

“Inactive Seating Display”

A method that displays real-time seating capacity.

“Seating Capacity”

Displays real-time seating capacity. The system calculates the number ofactive tables and active seats and compares the values to thepredetermined values of maximum table and seat capacity.

“Active Dealer Display”

A feature that displays the current active dealer servicing the game ata particular table.

“Automapper”

Uses a geographical layout of the casino and instruct players or patronson the “best route” to the gaming table of their choice. This functionaffects the workings of List Manager by notifying a player of thegeographic location of the table where an available seat resides.

“Player—Game Tracking”

Coordinates with other modules to calculate the play rate of a dealer.For example, since a dealer checks into and out the system during hisshift at various tables, he may be readily identified when he begins andends play at a given gaming table. Thus, that dealer's rate of play(e.g. games played per some unit of time) may be readily determined.This in turn may be used to calculate an expected “take rate” for thecasino, since the expected take rate per game may be determined forspecific games.

List Manager:

List Manager maintains a list or queue of various information. ListManager includes a suite of tools for automating the queuing process.These tools include: Add, Modify, Delete, Phone-In, Activate, Open Seat,Lockup, Rollover, Insert, Public Seat, and Multiple. Using thesecombined tools allows certain personnel to automate the manualprocesses. List Manager also uses voice recognition, text-to-speechalgorithms, and intelligent queue notification to alert patrons ofvarious availabilities. Sun's Java™ telephony API module may be used toimplement text-to-speech appropriately.

List Manager interacts with the database and all clients to ensurereal-time updates and monitoring. List Manager of course supports bothstationary and mobile electronic input devices.

FIG. 33 is a graphical user interface that displays, for various gamesat various tables, the players that are registered for those games.Whether the player is registered or waiting to be registered for thegame may be indicated by, for example, a different shading or color ofthe initials of the player indicated.

FIG. 34 is a graphical user interface showing a virtual keyboard, whichallows data such as players' initials to be entered in conjunction witha particular game at a particular table.

FIG. 35 is a flowchart illustrating an overview of an embodiment forList Manager. In particular, the flowchart illustrates that an actor maystart List Manager and invoke various functions of List Manager.

“Add”

Adds the player information to the list under the specified game ofchoice. The “Add” function records player information, date and time,and type of list addition. The system correctly places the addition onthe list in the next available position with a unique system and queueidentifier. Additions are color-coded on the visual representation ofthe queue/list, permitting various information to be easily understoodby users viewing the displayed data. FIG. 36 shows a use case diagram ofvarious actors invoking the “Add” (also “Add Player”) function. FIGS.37-39 describe in detail the process for adding a player.

“Modify”

Modify allows the modification of player information in the queue or onthe list. The player's position in the queue remains the same.

“Delete”

Delete removes a certain player's registration from the list or queue.Upon deletion the system recalculates the queue/list and updates theremaining entries by resorting them in the appropriate order. FIGS.40-42 describe in detail the process for deleting a player.

“Insert”

Insert performs a player insertion into the queue or list at a specifiedlocation determined by the user. After a player insertion the systemresorts the queue/list and updates accordingly. When a player isinserted the system provides date and time stamps as well as a uniquesystem ID. Inserts are color-coded on the visual representation of thequeue/list. FIGS. 43-46A describe in detail the process for inserting aplayer.

“Phone-In”

Phone-In supports the addition of a player to the queue/list viatelephone or e-mail requests (e.g., by a player not on site). A Phone-inis added with date and time stamps, unique system ID, and color-codedvisual entry.

“Activate”

Activate feature is required to activate a Phone-in entry. Once aphone-in entry is present and available for action, the activate featureupdates the system on player availability. Once a phone-in is activatedthe system removes the color-coded phone-in visual representation.

“Search”

Enables operators to actively search both current and past players andlists to provide comprehensive reporting and information regarding thetransaction history. Search can be performed with initials, name, playercard, game, or stakes. FIGS. 71-72 describe in detail the process forsearching for a user's initials. FIG. 73 illustrates a user interfacewhich displays information about various players and events.

“Open Seat”

Allows users to notify the system and players that an available seat hasbecome open. Once the open seat feature has been initiated the systemlocates the next name in the queue/list. The system then reads theplayer's information and using text-to-speech generation and calls outthe player via a public announcement system (e.g., speakers incommunication with and/or under control of the system) notifying them ofthe open seat for the particular game. The system can also notifyplayers via e-mail, and pager services.

“Lockup”

The system “lockups” or secures the available seat for a particularplayer called during the open seat notification. Once a player has been“locked up” their information is removed from the queue/list. The systemthen updates the queue/list by resorting the players.

FIGS. 46B-46G describe in detail the process of Lockup.

“Rollover”

Moves a player in the queue/list to the bottom of the queue/list. Thisis done so that the player is not removed from the queue/list but“rolled” over in because of unavailability of the player. The systemrecords the transaction and resorts the queue/list accordingly.

“Multiple”

Allow a user of the system to perform multiple functions during oneaction. An example of the multiple feature would be to add a player tomore than one game at a time. Using the multiple feature a user can addplayers to multiple games through one action. FIG. 47 is a Use CaseDiagram describing actors that may initiate the “Multiple” (Also called“Multiple Add”) function. FIGS. 48-50 describe in detail the process of“Multiple”.

“Reseat Player”

Determine the correct location in the queue/list to place a playerduring a reseating procedure. The player is placed on a reseating listof the game of choice and once activated the system manages how andwhere the player is inserted into the main queue/list.

“Integrated Voice Response”

Use customized text-to-voice process to create sentences and utilizing aspeaker or public announcement setup calls out the created sentence in avoice format. The method also handles the ability for players to“call-in” to the system via telephone or e-mail services and gainreal-time queue/list status, register for games, verify compensationpoints, and learn about establishment promotions. The integrated voiceresponse feature can recognized proper names from an internal dictionary(name table) and call the specific player by the own name. Proper Namerecognition may be performed through software. For example, prior tocalling a name or set of initials, the system parses the string (i.e.“p-e-t-e-r”) representing that name or set of initials. The system thendetermines whether or not the string matches a proper name in the nametable. If there is a match, a pre-recorded speech output filecorresponding to the proper name is played via the audio output device.If the string does not match a proper name from the name table, eachvariable (i.e. “p-e-t”) is matched to its corresponding pre-recordedsound (e.g., a sound file for each letter). Those sounds are played viathe audio output device.

“Promotional Marquee”

Enables an establishment to utilize the system to promote special eventson a visual display. Many types of appropriate displays include, forexample, a large plasma screen capable of a resolution of 1024×768. FIG.51 is a Use Case Diagram describing actors that may initiate the“Promotional Marquee” (Also called “Marquee”) function. FIGS. 52-54describe in detail the process of “Promotional Marquee”.

The program queries a database table where the marquee text, pictures,or voice information is stored. The program then displays this storedinformation on the designated screens. The marquee runs in real-time, sothat upon changing the values or information in the database table thedisplayed content will be updated without having to re-start theprogram. The scheduled query intervals, scrolling speed, and location ofthe marquee can be in customized since these parameters are defined inthe database.

“Average Wait Time”

Calculates historical and real-time data to predict average wait timewithin a queue/list. FIGS. 77-78 describe in detail the process for“Average Wait Time”. FIG. 79 is a user interface that displays averagewait time for various games.

“Player Self Registration”

Allows players to utilize the system and register themselves forparticular games of choice or tournaments via their playeridentification card. The system handles the player registration andrecords the transaction as self-registration for tracking and reportingpurposes.

“Profanity Checker”

Actively compares displayed information against a database dictionary ofprofanities. If the system detects a possible displayed profanity thesystem can notify an administrator and automatically disallow theprofanity from being displayed. FIG. 55 is a Use Case Diagram describingactors that may initiate the “Profanity Checker” function. FIGS. 56-58describe in detail the process of “Profanity Checker”.

“Duplicate Checker”

A feature that actively checks for duplicate names or the list or in thequeue. Duplicate Checker verifies that no duplicate entries may resideso that confusion in regards to list registration is avoided. This is aprocess of the program's processing engine.

FIG. 59 is a Use Case Diagram describing actors that may initiate the“Duplicate Checker” (also called “Duplicate Entry”) function.

FIGS. 60-62 describe in detail the process of “Duplicate Checker”

“Player Receipt”

Generate a receipt that the player can receive for validation of agaming session, registration, tournament placement, or compensationredemption. The receipt can be generated by the system with a uniqueidentifier and can contain encrypted barcode or magnetic stripefeatures.

“Casino Valet List Manager”

Handle the queue/list in the valet area of the establishment. Players orpatrons utilize the valet list in the same manner as the game list. Thesystem records the player and vehicle identification and processes thetransaction.

“Public Seat”

When an open seat is initiated the system will check to see if there areactive entries in the queue/list. If there are not, the system willnotify the “Public Seat” function. This function allows the actors ofthe system to be informed of available seats for the public or walk-inplayers by a visual color-code of the information.

FIG. 63 is a Use Case Diagram describing actors that may initiate the“Public Seat” (also called “Public Seating”) function.

FIGS. 64-66 describe in detail the process of “Public Seat”.

“Reserve Player”

When a player requests to be placed at the top of a list or queue, thatplayer can be inserted via the “Reserve Player” function. When an openseat becomes available that player will be next in line to acquire theseat. The reserved player may be represented by a visual color-code. The“Reserve Player” function may be used by management to place a playeratop the list or queue for special purposes.

FIGS. 74-75 describe in detail the “Reserve Player” function.

FIG. 76 is a graphical user interface showing a virtual keyboard, whichallows data such as players' initials to be entered in conjunction witha particular game at a particular table.

“Jackpot Display”

Allow an establishment to display a running total of a cash paymentoffered. The system records the parameters of the Jackpot requirementsand maintains the Jackpot total based upon the selected criteria.

“Game Qualification”

Decide whether or not to suggest the opening of a new game based upon aset of predefined criteria and algorithms. “Game Qualification” assuresthat there are enough players or interest in a game prior to that gamebeginning. Qualifying the game prior to it's start ensures that noresources, time, or administration services continue without someassurance that the game will be played. The criteria for qualifyinggames may be, for example, number of players, type of game, day of theweek, time of day, available dealers and/or available staff. Thecriteria are business rules that reside in the database and can bechanged by an administrator as desired.

An example of game qualification is:

Criteria:

1. A game must have at least three players waiting to play before thetable opens for play.

2. Available dealer must be present and currently unassigned.

3. All other games of similar type must be full.

Algorithm:

Check Rule: 1 (Pass) Check Rule: 2 (Pass) Check Rule: 3 (Pass)

Result: Game is opened.

“Pause List”

Allows the users of the system to pause the list or queue at random.Allowing the pausing of the list or queue gives the users the benefit ofmanipulating, viewing, and analyzing the current list or queue status.Upon a list pause, the system does not stop processing other requestsfrom other users or clients. The system will continue to processrequests and update the paused user or client once the list or queue isresumed.

“Undo”

System users may choose to undo already committed actions. The undofeature allows users to undo previously entered actions. The applicationserver and database log every transaction to a history table allowingthe rollback of transactions to a desired point.

“Redo”

The opposite of undo, if a system users roils back a transaction with anundo command and decides to redo the action, the system user may redothe last revoked command.

Finally, FIG. 89 describes an example of a player interacting with thesystem to be added to a desired game.

The invention has been described with respect to a number ofembodiments. However it will be apparent that many modifications andvariations may be made within the scope of the invention.

What is claimed is:
 1. A real time computerized system for live poker room operations with poker tables and poker players in a physical casino including seamlessly integrating player data in a system database located within the physical casino with another database Player data outside the physical casino, comprising: (a) at least one application software program server; (b) specialized hardware located at the poker tables to identify p payer card equipped players by a recognition of said physical player cards and transformation of stored data from those physical cards into computerized digital data for use in the system; (c) at least one computer memory with instructions executable by the said application program server to configure the server to access said system database containing player information and to access a suite of poker room software applications, the suite of poker room software applications—also stored on said server and comprising at least: (d) player poker game waitlist functionality, including the ability to allow the placement of players on prioritized waitlists for poker games of their choice, (e) player seating functionality including use of the said specialized hardware at the poker tables and the ability, to assign seats to poker players based upon their preferences when seats become available at poker tables, (f) player tracking functionality including, the ability to compute the playing time of the poker players; (g) user interface functionality including the ability for a poker room staff users to operate the suite of poker room software on or from at least one user interface on a computing device with a display; (h) network manager application software functionality connecting and integrating two or more elements of (a-g) wherein the said suite poker room software applications is enabled to synchronize the software functions in order to provide operational efficien to the poker room and inclusive of database synchronization of the said transformed player data.
 2. The system of claim 1, wherein the instructions when executed by said server configure the server to allow for the assignment and tracking of players to and at particular seats at the assigned tables.
 3. The system of claim 1, wherein the instructions when executed by said server configure the server to also provide Poker Tournament and display functionality.
 4. The system of claim 1, wherein the instructions when executed by the said server configure the server to provide functionality to allow players to register and pay tournament fees via the internet.
 5. The system of claim 1 including functionality to allow players to receive wireless, real-time alerts on their mobile devices.
 6. The system of claim 1 wherein the functionality also includes allowing dealers to be assigned to the poker tables based upon selected criteria.
 7. The system of claim 1 including ‘away status button’ functionality at the tables.
 8. The system of claim 1, wherein the instructions when executed by the said server configure said server to provide functionality which also enables integration of poker tournament information with any other database used by the poker room of the physical casino.
 9. The system of claim 1 wherein player self registration can occur via hardware functionality included in the players mobile devices.
 10. The system of claim 1 wherein player self-registration can occur via the internet and requires passwords.
 11. The system of claim 1, which also allows for player self-registration via a hardware based kiosk device with the ability to read data from physical player cards or from player mobile devices and transform that data into a digital format that the synchronized system can use.
 12. A real time computerized system for live poker room operations with poker tables and poker players in a physical casino including poker room software applications enabled via application service provider interact functionality comprising; (a) at least on application software program server located at an application service provider location; (b) specialized hardware at the poker tables to identify physical player card equipped players by a recognition of said physical player cards and transformation of stored data from those physical cards into computerized digital data for use in the system; (c) at least one computer memory with instructions executable by the said application program server to configure the server at the application service provider location to access a system database containing player information and to access a suite of poker room software applications, said suite of poker room software applications also stored on said server and including at least: (d) player poker game waitlist functionality, including the ability to allow the placement of players on prioritized waitlists for poker games of their choice, (e) player seating functionality including use, of the said specialized hardware at the poker tables the ability to assign seats to poker players based upon their preferences when seats become available at poker tables, (f) player tracking functionality including the ability to compute the playing time of the poker players; (g) user interface functionality including the ability for poker room staff to operate the suite of application service provider internet based poker room software on or from at least one user interface on a computing device with a display; (h) network manager applications software functionality connecting and integrating two or more elements of (a-g); wherein said suite of poker mom software applications is enabled to provide operational efficiencies to the poker room and inclusive of database synchronization of the said transformed player data.
 13. The system of claim 12, also including active dealer display functionality.
 14. The system of claim 12, also including dealer display functionality.
 15. The system of claim 12 including functionality to allow poker room staff to receive wireless, real-time alerts on their mobile devices relative to the status of the poker room.
 16. The system of claim 12 enabled to include instructions to allow dealers to be assigned to the poker tables based upon selected criteria.
 17. The system of claim 12, wherein the instructions when executed by the server configure the server to provide functionality which also enables integration of poker tournament information with any player database used by the poker room of the physical casino.
 18. The system of claim 12 also including player self-registration via players mobile devices.
 19. The system of claim 12 also including player self-registration via the internet and requiring passwords.
 20. The system of claim 12, wherein player self-registration is also enabled to occur via a hardware based kiosk device with the ability to read data from physical player cards or player mobile devices and transform that data into a digital format that the synchronized system can use. 